ISOLATION AND CHARACTERIZATION OF VASOFORMATIVE ENDOTHELIAL-CELLS FROM THE RAT AORTA

We describe here a modified nonenzymatic method for the isolation of rat aortic endothelial cells with vasoformative properties. Aortic rings placed on plastic or gelatin-coated surfaces generated outgrowths primarily composed of endothelial cells. Prompt removal of aortic explants after endothelial migration minimized fibroblast contamination. However, fibroblasts, because of their high proliferative rate tended to overgrow the endothelial cells even when present in small numbers. This potential pitfall was avoided by weeding out fibroblasts with the rounded tip of a bent glass pipette. Primary endothelial colonies free of fibroblasts were segregated in cloning rings, trypsin-treated, and transferred to gelatin-coated dishes. Endothelial cells were cultured in MCDB 131 growth medium containing 10% fetal bovine serum, endothelial cell growth supplement, and heparin. Using this technique, pure endothelial cell strains were obtained from single aortic rings. Confluent endothelial cells formed a contact-inhibited monolayer with typical cobblestone pattern. The endothelial cells were positive for Factor VIII-related antigen, took up DiI-Ac-LDL, and bound the Griffonia Simplicifolia-isolectin-B4. Endothelial cells cultured on collagen gel formed a polarized monolayer, produced basement membrane, displayed Weibel-Palade bodies and caveolae, and were connected by tight junctions. In addition, they reorganized into a network of microvascular cords and tubes when overlaid with a second layer of collagen and formed microvascular sprouts in response to fibroblast-conditioned medium. This isolation procedure yields stable strains of vasoformative endothelial cells, which can be used to study aortic endothelium-related angiogenesis and its mechanisms.